Solar System Connection Manual

Solomon Islands Electricity Authority Solar System Connection Manual Policies, Processes and Forms This manual is intended for the guidance of SIEA s Customer Service and Engineering personnel who are involved in receiving, considering and approving the connection of solar systems to the SIEA grid. Solar: Solar Manual Page 1 of 2

Contents 1 Technical Arrangements Document 2 Connection Essentials for designers and installers 3 Solar PV Connection Process 4 Application for Network Connection of a grid connected solar array 5 Solar PV Network Agreement Form 6 Standards for Grid Connected Solar Arrays 7 Outline of Solar Assessment Criteria 8 Installation and Commissioning Checklist 9 Downsized or Declined Applications 10 Solar PV Technical Assessments Customer Guides G1 Consumer Guide to household PV arrays G2 Solar Power Consumer Guide G3 EM1000 operation G4 How renewable energy works Solar: Solar Manual Page 2 of 2

Solomon Islands Electricity Authority Solar PV Arrangements Technical Arrangements for Grid Connection of Photovoltaic Systems via Inverters This document explains the technical requirements to connect a photovoltaic (PV) inverter system to the supply system (the grid) of the Solomon Islands Electricity Authority (SIEA).

Contents 1 Introduction... 2 2 Scope... 2 3 Installation Requirements... 2 3.1 General... 2 3.2 Australian Standards... 3 3.3 Safety... 3 3.3.1 Applicable Equipment... 3 3.3.2 Competent Designer... 3 3.3.3 Operating Personnel - Operation and Maintenance... 3 3.3.4 Installation and Inspections... 3 3.3.5 Logbooks... 4 3.4 Signage... 4 3.4.1 Signage for Type 1 Connections... 4 3.4.2 Signage for Type 2 Connections... 5 3.5 Protection Arrangements and Settings... 6 3.6 Surge Protection... 6 4 Network Connection Types and Metering Arrangements... 6 4.1 Standard (Type 1) scenario... 7 4.1.1 Single-phase customers with single phase PV... 8 4.1.2 Three-phase customers with single-phase or three-phase PV... 8 Solar: Technical Arrangements for Grid Connection of Photovoltaic Systems via Inverters Page 1 of 8

1 Introduction This document explains the technical requirements to connect a photovoltaic (PV) inverter system to the supply system (the grid) of the Solomon Islands Electricity Authority (herein referred to as SIEA). The PV inverter system will usually consist of a photovoltaic array on the roof of the building and a suitable grid-connect inverter connected to the metering box. This arrangement allows solar energy to be supplied to meet the customer s installation load and be backed up by the SIEA electricity grid at night and during bad weather. The guidelines are broken into the following sections: Section 2: Describes the situations this document applies to. Section 3: Lists the technical requirements that must be satisfied as part of the installation and ongoing operation of the PV inverter system. Section 4: Gives information on the metering arrangements. This document is to be read in conjunction with the following document: SIEA, draft 2013, "Electricity Connection and Metering Manual", www.siea.com.sb, in particular Chapter 10: METERING ARRANGEMENTS FOR INVERTER ENERGY SYSTEMS CONNECTED TO THE DISTRIBUTION NETWORK. Other related documents are: Photovoltaic Inverter Network Connection Agreement draft 2013 Going Solar? The process of installing a photovoltaic (PV) system in your home 2 Scope These technical requirements are limited to the following situations: Inverter energy systems that have a continuous rating of no more than 10kVA for single-phase systems or 30kVA for three-phase systems. Connections to the SIEA grid only. Systems without battery storage, although these can be considered for special applications. 3 Installation Requirements This section details the technical requirements to connect a photovoltaic inverter system to the SIEA grid. 3.1 General These requirements are valid for the following network voltages and maximum power generation capacities (continuous rating): Voltage Maximum Capacity 230V single-phase 10kVA 400 V three-phase 30kVA Solar: Technical Arrangements for Grid Connection of Photovoltaic Systems via Inverters Page 2 of 8

Higher rated installations may be allowed, but will require a special agreement with SIEA. 3.2 Australian Standards These requirements pertain to SIEA specific matters. The installation should as a minimum comply with Australian Standards AS3000, AS4777 and AS5033 and all other relevant Australian Standards and Solomon Islands statutory requirements. Installations are exempted from complying with these standards only where stated (for example some clauses of AS4777.1). The inverter to be used shall be of a model that has passed testing in accordance with the Australian Standard AS4777 guidelines. For a list of approved inverters see the website of the Australian Clean Energy Council, and follow the link to the 'Approved PV Inverters' (www.cleanenergycouncil.org.au) 3.3 Safety In the event of loss of network supply, the PV inverter system shall be designed to disconnect from the network via its on-board protection systems. Under certain undesirable circumstances, it is possible that PV Inverter systems could continue to provide energy to the network, resulting in a hazardous situation. This situation is known as "islanding" and the Australian Standards are designed to prevent this from occurring. 3.3.1 Applicable Equipment The permission to operate the installation is restricted to the equipment listed on the application form and approved by SIEA. The installation shall not have settings changed from those approved, or be upgraded, or be replaced, or be modified or be tampered with in any way. Systems found to be operating in such a manner will be disconnected from the grid until the matter is resolved. Should it be necessary to change any parameter of the equipment as installed and contracted, SIEA shall be notified for re-approval. Subsequently SIEA will determine whether a new application is required. 3.3.2 Competent Designer The PV Inverter system must be designed or approved by a person competent in this field prior to lodging an application with SIEA. For a list of approved designers/suppliers, see the website of the Australian Clean Energy Council (www.cleanenergycouncil.org.au) 3.3.3 Operating Personnel - Operation and Maintenance The customer is responsible for the operation and maintenance of the PV inverter system. Adequately qualified and licensed persons must carry out all work. The customer shall maintain the PV Inverter system to Australian Standard AS5033 and AS4777. Equipment directly involved with protecting and controlling the connection to the electricity system must be maintained to the equipment manufacturer's specification or the installer s recommendation. 3.3.4 Installation and Inspections Installations may be routinely inspected by SIEA once construction is completed. An SI licensed electrician/electrical contractor shall carry out all installation and maintenance work. Solar: Technical Arrangements for Grid Connection of Photovoltaic Systems via Inverters Page 3 of 8

3.3.5 Logbooks For safety reasons all customers are required to maintain a logbook detailing inspections and operating activities. This log is an important document and it must be kept in a secure place (typically in the meter box) and be available for inspection by SIEA staff. Further, any change/modifications done in the PV system will need a Certificate of Compliance. An example of logbook pages is shown below. INVERTER Make/Model: Serial No. Rating: W Service provider Service details Date PV PANELS Make/Model: Serial No. Rating: W Service provider Service details Date 3.4 Signage Care must be taken to label switchboards and relevant equipment as per the Australian Standards. 3.4.1 Signage for Type 1 Connections Main switchboard and distribution board(s). Quantity: 1 Lettering height: "WARNING" 8mm Other text 4mm Colour: Red, white letters Size: 120 x 60 mm WARNING DUAL SUPPLY ISOLATE NORMAL SUPPLY TO THIS SWITCHBOARD AND SOLAR SUPPLY AT MAIN METER BOX BEFORE WORKING ON THIS SWITCHBOARD Main meter box where the private generation plant is connected. Quantity: 1 Lettering height: "WARNING" 8mm other text 4mm Colour: Red, white letters Size: 120 x 60 mm WARNING DUAL SUPPLY ISOLATE BOTH SERVICE FUSES AND SOLAR SUPPLY BEFORE WORKING ON THIS METER BOX Solar: Technical Arrangements for Grid Connection of Photovoltaic Systems via Inverters Page 4 of 8

3.4.2 Signage for Type 2 Connections Consumer switchboard or distribution boards connected to Solar Meter Box where private generation plant is connected. Quantity: 1 Lettering height: "WARNING" 8mm other text 4mm Colour: Red, white letters Size: 120 x 60 mm WARNING DUAL SUPPLY ISOLATE BOTH NORMAL AND SOLAR SUPPLIES BEFORE WORKING ON THIS SWITCHBOARD Main switchboard and distribution board(s) upstream of distribution board connected to Solar Meter Box where the private generation plant is connected. Quantity: 1 Lettering height: "WARNING" 8mm other text 4mm Colour: Red, white letters Size: 120 x 60 mm WARNING DUAL SUPPLY ISOLATE BOTH NORMAL AND SOLAR SUPPLIES BEFORE WORKING ON THIS SWITCHBOARD Solar meter box where the private generation is connected. Quantity: 1 Lettering height: "WARNING" 8mm other text 4mm Colour: Red, white letters Size: 120 x 60 mm WARNING DUAL SUPPLY ISOLATE BOTH NORMAL AND SOLAR SUPPLIES BEFORE WORKING ON THIS METER BOX Main Meter Box Quantity: 1 Lettering height: "WARNING" 8mm other text 4mm Colour: Red, white letters Size: 120 x 60 mm WARNING DUAL SUPPLY ISOLATE BOTH SERVICE FUSES TO THIS METER BOX AND SOLAR SUPPLY AT SOLAR METER BOX BEFORE WORKING ON THIS METER BOX Solar: Technical Arrangements for Grid Connection of Photovoltaic Systems via Inverters Page 5 of 8

3.5 Protection Arrangements and Settings SIEA requires protection equipment to achieve the following safety objectives: to disconnect the inverter from the SIEA system in the event of loss of SIEA supply to the installation; and to prevent the inverter from back-energising a de-energised SIEA circuit. The protection arrangements should be as per AS4777 guidelines. The following specific voltage and frequency settings must be programmed into the inverter. Note These settings may need to be changed in off the shelf inverters. For a single-phase system: Maximum voltage trip point will be 255V phase to neutral; Minimum voltage trip point will be 210V phase to neutral; FreqMAX will be 54Hz; and FreqMIN will be 46Hz. For a three-phase system: Maximum voltage trip point will be 440V phase to phase; Minimum voltage trip point will be 370V phase to phase; FreqMAX will be 54Hz; and FreqMIN will be 46Hz. In addition to any protection integrated into the inverter design, short circuit and/or overcurrent protection must be provided by fuses or circuit breakers. This back up over-current protection function can be provided by the metering fuses or by a circuit breaker located at the connection point of the inverter within the meter box. All protection settings shall be such that satisfactory coordination is achieved with SIEA's protective system for the network. In certain circumstances, SIEA may require the new exported energy to be limited to a specified amount. Any such limit will be advised to the Customer before a Network Connection Agreement is signed. 3.6 Surge Protection The SIEA supply system may experience surges during such storms and at other times. The inverter contains many electronic parts and is directly connected to the SIEA supply system and may not be able to cope successfully with the surges. The inverter is also directly connected to the PV panels. Being usually mounted on top of the roof, these are directly exposed to the elements and storms and provide an alternative path for surges. It is the customer's responsibility to include sufficient surge protection for the PV Inverter system. In case of failure of the PV Inverter system, SIEA shall not be liable in any way. 4 Network Connection Types and Metering Arrangements This section details the types of connection arrangement which enable SIEA to meter the net electrical energy that SIEA supplies to the customer. Billing arrangements are detailed in the Network Connection Agreement. Solar: Technical Arrangements for Grid Connection of Photovoltaic Systems via Inverters Page 6 of 8

The customer will meet the cost of installing the additional metering and any modifications to the existing metering arrangement. The meters will remain the property of SIEA. The customer's licensed contractor will complete the wiring for the meter. When the work is complete and certified, SIEA will install and commission the meter and connect the PV system to the SIEA Grid. Replacement of an existing Meter Panel containing Asbestos: For all PV installations, if the existing meter panel contains asbestos, the panel must be replaced with a meter panel without asbestos before any work on the panel. Replacement of the Meter Panel: There may not be enough space on the existing meter panel for the additional meter. In this case, the customer shall provide and meet the cost of an additional meter box or relocation of fuses/circuit breakers within the existing meter box to accommodate the new meter. 4.1 Standard (Type 1) scenario In this scenario, the inverter generation cable is connected at the existing meter box. All energy consumed from the grid at the premises will be metered by an import-only meter and billed to the customer under the applicable tariff(s). It is only any excess energy will be exported to the SIEA grid. This energy will be metered, but will NOT be paid for by SIEA. This is a net metering scheme as shown in Figure 1. This dual element (dual register) meter must be installed before any grid connection is made with a new PV array. Solar: Technical Arrangements for Grid Connection of Photovoltaic Systems via Inverters Page 7 of 8

SIEA Grid Import Energy Register PV Array with DC-AC Inverter SIEA Service Connection Net Export Energy Register SIEA Dual Element meter Customer Load Figure 1 - Schematic Type 1 Single-Phase Metering; Dual-Element Meter 4.1.1 Single-phase customers with single phase PV The customer must make a provision for installation of a single-phase, bottom-connect, dualelement meter; element 1 for energy consumed from the grid and element 2 for net energy supplied back into the SIEA grid. 4.1.2 three-phase customers with single-phase or three-phase PV The customer must make provision for installation of a dual register three-phase, bottom connect meter for energy supplied from the grid metering and for net energy exported metering. If the existing metering arrangement consists of three single-phase meters, they will be replaced by a single dual register three-phase meter (upgrade) with one element for the energy supplied from the grid metering, and one element for the net energy exported metering. Solar: Technical Arrangements for Grid Connection of Photovoltaic Systems via Inverters Page 8 of 8

Connection Essentials for Designers/Installers With the increasing popularity of solar photovoltaic (PV) systems, SIEA is keen to work closely with the solar PV industry to manage impacts to customers and SIEA s network. As an installer or electrical contractor in the solar PV industry, you play an important role in guiding our customers through the purchase, installation and connection process. Lodging an application to connect a solar PV system All Inverter Energy Systems (IES) systems must be approved by SIEA before installation. We ask that you ensure your customers are aware of this requirement. To begin, you ll need to submit a completed Application for network Connection of a gridconnected solar array form to SIEA. However, if you're planning to install a solar PV system larger than 5kW in size, you'll need to make your enquiries directly with SIEA engineering. Please ensure you submit the fully filled-in form to SIEA. Incorrect forms will not be considered and a new application will be required. Installers submitting applications on behalf of customers must ensure they have the customer's consent or the application will not be considered. Assessing applications SIEA will conduct a preliminary evaluation of the application based on the size of inverter and the nature of the local network serving the premises. A technical assessment will be required to check for any potential adverse impacts to the network, the customer s premises, or their neighbours premises. SIEA may require up to five weeks to technically assessing applications for systems that require connection to the Honiara network or to an outstation network. Ask SIEA for the Outline of Solar Assessment criteria document. Find out more from SIEA s Outline of Technical Assessment Criteria document. Approving, downsizing or declining applications Applications may be downsized or declined if: The transformer serving the premises is too small to support the volume of electricity that could be generated by the system The connection is a relatively long distance away from the transformer, which may cause significant voltage fluctuations There are already a number of solar PV system connections that share the same transformer. This may even be the case if there is only one other solar PV system. If the application is downsized or declined, customers can re-apply for an inverter up to a maximum size we advise, withdraw their application or explore alternative options to: Solar: Connection Essentials for Installers Page 1 of 2

Install a small-scale system with an inverter of a lower capacity Upgrade the number of phases to the premises to accommodate the desired inverter size Pay for an upgrade to the network to accommodate the inverter originally requested. If no adverse impacts are identified, SIEA will approve the solar PV system connection and send the customer two copies of an IES Network Agreement. For details on the terms and conditions of connecting to the SIEA network under this agreement, look at the Solar Network Agreement form. Installing and connecting solar PV systems Once the application has been approved and the customer has returned the IES Agreement, you can proceed to install the customer s solar PV system. As an installer, you are responsible for ensuring the system and equipment installed at the customer s premises complies with: Australian Standard AS/NZS 3000:2007 - SAA Wiring Rules; Australian Standard AS/NZS 4777:2005 Grid Connection of Energy Systems; Note: Voltage ranges in inverters are generally factory-set to AS4777 standards. However, SIEA requires a narrower voltage range of 225V to 255V (240V +/-6%). Inverters must be set to this range in order to comply with the terms of the SIEA IES Network Agreement. Any other applicable Australian Standards, current as at the date of installation; and The relevant requirements of the SIEA Electricity Connection and Metering Manual. If the customer has been approved to install a three-phase inverter system, then the output power must be distributed evenly across the three phases (unless indicated otherwise). Accordingly, if approved for a two-phase inverter system, the output power must be distributed evenly across two phases (unless indicated otherwise). After connection, you ll need to submit Form A to SIEA requesting a meter change. Resolving non-compliance If SIEA receives a Form A for a system we have not approved, we will contact the customer to arrange completion of an application and conduct an assessment of the application before the connection can be approved and an appropriate meter installed. If the inverter installed is of a different capacity to what has been approved in the application, SIEA may not be able to install the required meter. If a different inverter is required, please check with us to ensure the inverter is compliant with the customer s IES Network Agreement. Non-compliance with SIEA s requirements may generate a Fault Notice to the customer to rectify any issues, and the new meter may not be installed. In addition, if SIEA deems the electrical installation to have a major defect, a Fault Notice will be raised and the premises may be disconnected. A Fault Notice may also be raised for minor defects. If we identify any adverse impacts to the network, the system may need to be disconnected until alternative solutions are explored. In some cases, the connection application may be declined. Solar: Connection Essentials for Installers Page 2 of 2

Solar PV Connection Process Solar PV systems, along with wind and hydro systems for example, are collectively referred to as Inverter Energy Systems (IES). When connected to the network, these systems can supply your power needs, and feed electricity back onto the grid. Follow these simple steps to purchasing and connecting your solar PV system: 1. Choose the right system for your needs If you're looking to install a solar PV system at your home, you'll need to contact a supplier to find a system that suits your needs. 2. Lodge an application to connect your system Before having your solar PV system installed, you will need to secure approval from SIEA for your system to be installed and connected to the grid. To begin, you ll need to submit an Application for Network Connection of an Inverter Energy System to SIEA. This application process only applies to systems under 10kW in size. Applications for systems larger than 30kW must be made through SIEA directly While the application is usually made by your system retailer or installer, as the electricity account holder you must provide your consent. Forms must be completed in full as relevant. Incomplete forms may be rejected. 3. Assess application SIEA will conduct a preliminary evaluation of your application based on the size of inverter and the nature of the local network serving the premises. A technical assessment may be required to check for any potential adverse impacts to the network, your premises, or your neighbours premises. SIEA may require up to five weeks to technically assessing applications for systems that require connection to an SIEA isolated generation system in Honiara or in a remote area or community. Find out more about SIEA s assessment on Outline of Solar Assessment Criteria. 4. Approve, downsize or decline application SIEA will downsize or decline an application if it presents risks to the network or to individual premises. In some areas, even a small number of solar PV systems in the same area or a single large system could impact on the local electricity network. Solar: Solar PV Connection Process Page 1 of 2

Find out more about your options if your system application is downsized or declined. If no adverse impacts are identified SIEA will approve the connection of your solar PV system and issue two copies of an IES Network Agreement. For details on the terms and conditions of connecting to the SIEA network under this agreement, view a sample IES Network Agreement. This agreement outlines the terms and conditions for the connection of the solar PV system to the SIEA distribution network. It is a legally binding agreement between SIEA and the electricity account holder/s. Please read the terms and conditions carefully and seek legal advice where necessary. You will need to sign both copies of the IES Agreement front page and return one to SIEA. You will then be free to arrange installation. 5. Install and connect the solar PV system Once you have returned your IES Agreement, your system can be installed, and connected to the grid by an electrical contractor. Most installers are also electrical contractors. SIEA strongly encourages the use of an installer accredited with the Australian Clean Energy Council or equivalent. 6. Request to connect electricity meter Your installer or electrical contractor will notify SIEA of the new solar PV system connection and lodge a request for an appropriate electricity meter to be installed at your premises. SIEA will endeavour to install new meters as quickly as possible. However, there may be delays in installing new meters in some areas. 7. Install electricity meter To complete the process, SIEA will inspect your new solar PV system connection and install the appropriate electricity meter. This meter allows SIEA to measure how much electricity you draw in from the grid and how much your solar PV system exports into the grid. NOTE: SIEA does not purchase any exported energy. Your electricity meter will not measure the total amount of electricity generated by your solar PV system. SIEA will then alter your Electricity Account as per the Network Agreement. Solar: Solar PV Connection Process Page 2 of 2

Application for Grid Connection of Solar Array This form is to be completed and delivered to SIEA Head Office at Ranadi. NOTE: All fields in Parts 1, 2 and 3 must be completed. Incomplete forms may be rejected. PART 1: APPLICANT Name: (As per electricity account individual/s or company Contact Person: (if different to above) Phone No: Address of proposed generation system: Email address: Postal address: (write as on left if relevant) Registered Plan No: (Found on rates notice) Lot No: (found on rates notice) Upgrading existing approved system: No Yes, panels only Yes, panels and inverter Is this a revised application for these premises? No Yes PART 2A: SYSTEM SALES CONSULTANT Name: Business name: Postal address: Email address: Phone No: PART 2B: ELECTRICAL CONTRACTOR/INSTALLER (if different entities, list electrical contractor only) Name: Phone No: Email address: PART 3 SYSTEM CHARACTERISTICS Type: Solar PV array/generator rated output (kw): Electrical Contractor No: Inverter rated AC power (kw): Inverter brand: Inverter series: Inverter model: No of phases of applicant s connection: Single Two Three Unsure Other aspects of applicant s electricity service of potential relevance to technical assessment, e.g. length and size of consumer and service mains, approximate distance to nearest transformer, etc.: NOTES: 1. Network approval must be obtained before installation. 2. Inverter maximum voltage trip point must be set to 255V (single phase) or 440V (three phase). Failure to adhere may lead to disconnection of the inverter energy system. 3. If the proposed inverter is not on the list of inverters compliant with AS4777: Grid Connection of Energy Systems Using Inverters published at www.solaraccreditation.com.au, compliance evidence must be supplied with this application. All Applicants signatures: PART 4 INSPECTION DETAILS (TO BE COMPLETED BY SIEA) System compliant: Examination report Connection Date: Yes No Fault Notice No: Name of SIEA assessment officer: (print) Signature: Solar - Application Form Page 1

PART 5: STANDBY CHARGE FEE The amount of this standby charge will be calculated in terms of the Electricity Act. The relevant extract is shown in Appendix 1. The key calculation is that of estimating the value of electricity that would have been consumed had the standby plant not been operated. SIEA will then apply a charge based on up to 50% of this estimate. The value of electricity that needs to be calculated under the Regulation will be based on an estimation of the daily output from a modern solar system, and then relating this to the rating of the solar system. The expected kwh power production from a solar PV array in the high tropics can be expected to be 4.4 times the kw rating of the system (Australian Clean Energy Council for Darwin City). The kw rating of a solar system is defined by the kw rating of the inverter, so the kwh output can be estimated as 4.4 times the kw rating of the inverter. As an example for a 4kW solar system, SIEA would then apply a daily standby charge: Daily Standby Charge = 50% of [$4.4 x (4kW inverter rating) x (SIEA Domestic or Commercial Tariff)] Connection Type Act req 50% kw rating in Times Inverter Rating (kw) Rates- Tariff Daily Standby Charge= Domestic Customer 50% 4.4 4 6.4685 $56.92 Commercial Customer 50% 4.4 4 6.9530 $61.19 Industrial Customer 50% 4.4 4 6.7719 $59.59 PART 6: AUTHORISATION FOR THIRD PARTY TO LIAISE WITH SIEA If you wish to authorise any representative of your system sales company or your electrical contractor/installer (one of the parties listed on this form), to liaise on your behalf with SIEA during the course of the Solar Grid Connect System application and connection process, please complete this section. Your authorisation will allow that person to: Contact SIEA to enquire, and be provided with information, regarding the status of your application and/or meter installation. However, SIEA will at no time divulge any personal or account information to this third party. That party will not Receive copies of correspondence sent to you. Only basic information related to the Solar Grid Connect System application and approval will be released to the person or company listed below. The first page of this Application and the Solar Grid Connect System Network Agreement Forms applicants receive must still be signed by the electricity account holder/s. I/We (all applicants listed as electricity account holder/s) hereby provide permission for (name, if you wish to specify a single person) of (company) To liaise with SIEA on my/our behalf with regard to my/our Solar Grid Connect System application and connection. I/We understand that once the new meter is installed; or upon advising SIEA in writing of a change of system sales company or electrical contractor/installer; or upon withdrawal, in writing, of this application, this permission ceases immediately. Signed (all applicants) Date / / Privacy Notice SIEA is collecting your personal information on this form for the purpose of assessing your Application for Network Connection of Solar Grid Connect System (IES). If you do not provide all of the information requested we will not be able to assess your application. Your personal information will not be disclosed to third parties unless you consent or it is authorised or required by law. Solar - Application Form Page 2

Inverter Energy System Network Agreement Form Deliver to SIEA at its Head Office Ranadi when signed by all account holders CUSTOMER DETAILS Name: (Electricity account holder individual or company) ( you or your ) Postal address: Address of proposed generation system: (Write 'As above' if relevant) Type: Solar Contact person: (If different to name above) Email address: Phone No: Fax No: Mobile: Registered Plan No: (Found on rates notice) Lot No: (Found on rates notice) SIEA DETAILS Name: ( we, our or us ) Postal address: Contact person: Email address: Phone No: Fax No: : Mobile: GENERAL DETAILS Start date The date the IES is installed at your Premises and capable of exporting energy to the Network. Expiry date When this Agreement is terminated under clause 4. IES Exported Energy You must ensure that the IES meets the following requirements: Inverter rated output kw The maximum voltage variation measured at the point of connection to the Network will be: 240V+/- 6% ACCEPTANCE BY THE CUSTOMER Executed by the Customer (or an authorised representative if the Customer is a company). PRINT NAME POSITION (COMPANIES ONLY) SIGNATURE DATE ACCEPTANCE BY SIEA Executed for and on behalf of SIEA by its authorised representative. SIGNATURE PRINT NAME DATE POSITION SOLAR: Network Agreement Form Page 1 of 9

1 PARTIES This contract is between: (a) SIEA (in this contract referred to as we, our or us ); and (b) you, the customer to whom this contract is expressed to apply (in this contract referred to as you or your ). 2 DEFINITIONS AND INTERPRETATION The definitions of capitalised terms are given in Schedule 1 of this Agreement 3 DO THESE TERMS AND CONDITIONS APPLY TO YOU? This agreement applies to you if an IES is installed at your Premises that can, at times, result in electrical energy being exported to our Supply Network. This Agreement applies in addition to the Connection Contract between you and us. Nothing in this Agreement affects your or our rights and obligations under the Connection Contract between you and us. 4 WHAT IS THE TERM OF THIS CONTRACT? This Agreement takes effect from: (a) if you install the IES, the date the IES is installed at your Premises and becomes capable of exporting energy to our Supply Network; or (b) if you move into Premises where an IES is installed and is capable of exporting energy to our Supply Network, the date you move into the Premises. This Agreement may be terminated: (a) at any time at your request, by notifying us that the IES is no longer connected at the Premises; (b) at the time that the Connection Contract between you and us, or your contract with your Electricity Retailer is terminated; or (c) by us at any time if you fail to comply with the terms and condition of this Agreement or if you fail to remedy any situation where the IES represents a hazard or risk to our Supply Network, our officers and agents or the general public. Where a breach of this Agreement is considered by us to be capable of being remedied, we may allow a reasonable amount of time for you to take measures necessary to eliminate, to our satisfaction, the matters identified. If this Agreement is terminated, you must ensure that the IES is no longer capable of exporting energy to our Supply Network. 5 CONDITIONS FOR IES EXPORTING ENERGY TO OUR SUPPLY NETWORK 5.1 Consent for exportation of energy to our Supply Network We consent to allow the connection of an IES at your Premises that is capable of exporting energy at times to our Supply Network on and subject to the terms of this Agreement. 5.2 Conditions of Consent Our consent under this Agreement is at all times conditional upon: (a) the IES complying with the Technical Conditions for the Connection of Small Scale Photovoltaic Inverter Energy Systems (Schedule 2); (b) the IES complying with all relevant Australian Standards and Regulations; and (c) you complying with the terms and conditions of this Agreement. SOLAR: Network Agreement Form Page 2 of 9

5.3 Discretion to specify additional conditions We retain a right in our discretion to specify additional requirements for an IES system. In exercising our discretion we will consider the conditions of the specific network that the IES is connected to. 5.4 Design, Installation and Testing You must: (a) engage an Accredited Installer (full or provisional) for design and installation of the IES as specified on the Clean Energy Council website: www.cleanenergycouncil.org.au under Accreditation ; and (b) consent to us, our officers and agents entering the Premises at any reasonable time and date to test the IES for the purpose of establishing that the IES and the installation complies with this Agreement. You acknowledge that we are not responsible for ensuring that you comply with the relevant standards. 5.5 Operating Procedure You must comply with any request from us for the IES to be taken off-line and disconnected for operational reasons or for planned maintenance. In the event that our Supply Network is unable to accept energy generated by you for any reason, no compensation will be payable by us. 5.6 Request to cease energy export We may request that you cease to export energy to our Supply Network if: (a) exportation would result in a breach of technical or safety requirements under the Act, the Electrical Safety Act or this Agreement; (b) exportation would unreasonably interfere with the connection or Supply of electricity to other users of the network; (c) it is required to do so under any applicable law. Such a request to cease exporting energy will be in writing to the customer. Other than for safety requirements, you are required to comply with this request within three business days. Where a safety risk is determined, you must comply with the request immediately. If you do not action such a request within the appropriate timeframe, we may disconnect you pursuant to our rights under the Connection Contract between you and us. This clause does not alter any rights or obligations for disconnection of the premises under the Electricity Act. For the avoidance of doubt, we have rights and/or obligations for disconnection under the Electricity Act regulations. 6 METERING You acknowledge that electricity metering relevant to the IES at the Premises is owned by us, will be installed in compliance with the DNSP Metering Manual, and will be operated by us. We will have the discretion to determine the meter type. You must supply us with safe access to allow us to install, test, maintain or remove the meter installation of the IES. You consent to us, our officers and agents entering the Premises for the purposes of installing, testing, reading, maintaining or removing the meter installation. SOLAR: Network Agreement Form Page 3 of 9

7 SAFETY You must: (a) install and maintain the IES and associated equipment in safe working order at all times and in accordance with the requirements of this Agreement; (b) have an IES isolation procedure displayed prominently and effectively secured at the main switchboard and keep a copy of the IES operations manual in or near the main switchboard at all times; (c) comply with our reasonable directions in order to secure the safety and stable parallel operation of our Supply Network and the IES; and (a) comply with the requirements of the Electricity Act, the Safety at Work Act, and Electricity Regulations for the installation, inspection, operation and maintenance of the IES. 8 MAINTENANCE You must: (b) ensure the IES is inspected and maintained in accordance with the manufacturer s recommendations by an appropriately qualified person; (c) where there are no manufacturer s recommendations, ensure inspection and condition based maintenance is performed by an appropriately qualified person; (d) provide, at our request, the results of any inspections carried out in accordance with the requirements of this Agreement; and (a) ensure that any component of the IES replaced during maintenance is compliant with the requirements of this Agreement. 9 YOUR OBLIGATIONS In return for our consent to export energy to our Supply Network, you agree to: (b) pay all of our costs associated with any system reinforcement, system modification, additional protection and control equipment required to accommodate the IES; (c) not mislead or deceive us in relation to any information provided; (d) undertake, if necessary, any changes to the wiring at the Premises necessary for the installation of our metering equipment; (e) advise us of any proposed material operational changes of the IES, including the installation of any additional IES; (f) obtain our prior consent in writing to any material increase in capacity of the IES prior to any such increase; (e) maintain the IES in accordance with Section 8 of this Agreement; (g) advise any subsequent occupant of the Premises of the existence of this Agreement and the requirement for the new occupant to enter into a new Agreement with us; and (h) consent to us, our officers and agents entering the Premises at any reasonable time and date to test or inspect the IES for the purpose of establishing that the IES and the installation complies with this Agreement; and 10 ASSIGNMENT You may not assign your rights or novate your obligations under this Agreement without the prior written consent of us, which will not be unreasonably withheld. SOLAR: Network Agreement Form Page 4 of 9

1 DEFINITIONS AND INTERPRETATION SCHEDULE 1 GENERAL TERMS AND CONDITIONS 1.1 Definitions In this Agreement: Accredited Installer means a person who has demonstrated their competence to design and install renewable energy systems and holds appropriate accreditation as acknowledgement of their competence. Act means the Electricity Act. Agreement means this Inverter Energy System Network Agreement. Connection Contract has the meaning given in the Act. Customer refers to the person (or persons) residing at the Premises where IES is installed. Electrical Safety Act means the Electricity Act. Electricity Industry Code means any Electricity Industry Codes made under the Act. Electricity Regulations means the Electricity Regulations. Export or Exported energy means the quantity of energy generated by the IES equipment and delivered to our Supply Network. Inverter means a device that uses semiconductor devices to transfer power between a DC source or load and an AC source or load. IES means an Inverter Energy System and represents a system comprising one or more inverters together with one or more energy sources (which may include batteries for energy storage), controls and one or more grid protection devices. In the context of this document, the energy source shall be a Photovoltaic Array. Negotiated Connection Contract has the meaning given to that term in Electricity Act. Photovoltaic Array or "PV" means an electrically integrated assembly of PV modules, and other necessary components, to form a DC power supply unit. A PV array may consist of a single PV module, a single PV string, or several parallel-connected strings, or several parallel-connected PV sub-arrays and their associated electrical components. "Premises" means the premises (as that term is defined in the Act), at which you propose to install the IES. Standard Connection Contract has the meaning given to that term in the Electricity Act. "Supply" means the supply of electricity from our Supply Network to the Premises. "Supply Network" has the meaning given to that term in the Electricity Act. WHS Act means the Safety At Work Act. 1.2 Interpretation In this Agreement, unless the contrary intention appears: (a) headings are for ease of reference only and do not affect the meaning of this Agreement; (b) the singular includes the plural and vice versa, words importing a gender include other genders and words and expressions importing natural persons include partnerships, bodies corporate, associations, governments and governmental and local authorities and agencies; (c) other grammatical forms of defined words or expressions have corresponding meanings; (d) a reference to a clause, paragraph, schedule or annexure is a reference to a clause or paragraph of or schedule or annexure to this Agreement and a reference to this Agreement includes its recitals and any schedules and annexures; SOLAR: Network Agreement Form Page 5 of 9

(e) a reference to a document or agreement, including this Agreement includes a reference to that document or agreement as novated, altered or replaced from time to time; and (f) a reference to a party includes its executors, administrators, successors and permitted assigns. SOLAR: Network Agreement Form Page 6 of 9

2 GENERAL PROVISIONS 2.1 Inconsistency between clauses and schedules If there is any inconsistency between a clause of this Agreement and the Schedules to this Agreement, then the clause of the Agreement will prevail. 2.2 Relationship with Connection Contract This Agreement does not change the conditions of the Standard Connection Contract or Negotiated Connection Contract (whichever is applicable). 2.3 Effect of this Agreement This Agreement covers the exporting of energy to our Supply Network only and does not relieve you of any obligations at law or the requirements of another authority in relation to the installation, operation or maintenance of the IES. 2.4 Joint and Several Liability If you are more than one person: (a) an obligation of those persons is joint and several; and (b) a right of those persons is held by each of them severally. 2.5 Liability for Damage You acknowledge that we will not be liable for any loss, damage or injury suffered or claimed by you or any other person that may occur or be attributable to the installation and operation of the IES at the Premises. The parties acknowledge that you are responsible for any insurance costs associated with your obligations or possible liability under this Agreement. SOLAR: Network Agreement Form Page 7 of 9

SCHEDULE 2 TECHNICAL CONDITIONS FOR THE CONNECTION OF SMALL SCALE PHOTOVOLTAIC INVERTER ENERGY SYSTEMS 1 INTRODUCTION The technical conditions hereafter refer to the mandatory requirements for the IES. 2 SCOPE This Agreement covers installations up to a maximum of 30 kva (3-phase) or 10 kva (single phase) that may export electrical energy to our Supply Network regardless of the length of time that parallel operation would normally occur. 3 DESIGN AND INSTALLATION The design and installation of the IES must comply with: (a) AS 4777 Grid Connection of Energy Systems via Inverters, Parts 1, 2 and 3; (b) AS/NZS 3000 SAA Wiring Rules; (c) AS/NZS 3008 Electrical installations Selection of cables; (d) AS/NZS 5033 - Installation of Photovoltaic (PV) Arrays; (e) all other applicable Australian Standards/Codes of Practice, current as at the date of installation; (f) the Technical Conditions as set out in this document; (g) the SIEA Metering and Connection Manual. 4 METERING The metering of the IES must: (a) comply with the requirements of the Electricity Connection and Metering Manual; and (b) be located adjacent to the existing revenue metering for the Premises. 5 GRID PROTECTION REQUIREMENTS The IES output voltage, frequency and waveform must match that of our Supply Network such that any distortion of these parameters shall be within acceptable limits. There shall be no significant reduction in quality of Supply to other network users or risk of damage to apparatus belonging to other network users or us. The Inverter protection elements must comply with AS 4777.3 Grid Connection of Energy Systems via Inverters Part 3: Grid Protection Requirements to ensure the following requirements are met: (a) disconnection of the Inverter from our Supply Network in the event of a loss of Supply; (b) to ensure the Inverter is operating within acceptable operating parameters; (c) to prevent the Inverter from energising a de-energised circuit. Passive protection arrangements shall comply with AS 4777.3 Grid Connection of Energy Systems via Inverters Part 3: Grid Protection Requirements. In addition, the following specific voltage and frequency settings shall be programmed into the Inverter: (a) Voltage: Maximum voltage trip point (Vmax) shall be 255V for a single phase system or 440V for a three phase system. (b) Frequency: i. Minimum frequency trip point (Fmin) shall be 48Hz ii. Maximum frequency trip point (Fmax) shall be 52Hz SOLAR: Network Agreement Form Page 8 of 9

If voltage and/or frequency fall outside the set limits, the IES must be automatically disconnected from the Network. Reconnection procedure shall comply with AS 4777.3 Grid Connection of Energy Systems via Inverters Part 3: Grid Protection Requirements. Without limiting our discretion in Clause 5.3 of this Agreement, the IES must have any additional functionality specified by us regarding variable voltage and Volt-Amperes Reactive controls in accordance with the particular network conditions relevant to the IES. 6 IES TESTING Upon completion of the installation of the IES, we may conduct a test of the IES equipment at a mutually agreed time and date for the purpose of establishing that the IES complies with this Agreement. The test will consist of: (a) disconnection of the Premises from the Supply Network; (b) reconnection of the Premises to the Supply Network; and (c) inspection and such testing of the IES as we consider necessary for compliance with this Agreement. 7 TYPE/CAPACITY CONSTRAINTS At some locations, technical requirements may limit the type or capacity of IES that may be installed. Where required by us, you shall pay for any technical studies required to ensure the suitability of the IES interaction under normal and fault conditions. These studies shall be undertaken to our satisfaction regarding technical content. Should the studies require the Supply Network to be reinforced or modified you will be required to bear the costs associated with this work. SOLAR: Network Agreement Form Page 9 of 9

Standards for Grid-Connected Photovoltaic (PV) Arrays Area Title Outline Installation AS/NZ 5033:2012 Installation and safety requirements for photovoltaic (PV) arrays Installation AS4777.1:2005 Grid connection of energy systems via inverters - Installation requirements Inverter Req ts AS4777.2:2005 Grid connection of energy systems via inverters - Inverter requirements Sets out general installation and safety requirements for photovoltaic (PV) arrays, including DC array wiring, electrical protection devices, switching and earthing up to but not including energy storage devices, power conversion equipment or loads. The safety requirements of this Standard are critically dependent on the inverters associated with PV arrays complying with the requirements of IEC 62109-1 and IEC 62109-2 and all power conditioning equipment complying with IEC 62109 series standards. PV arrays of less than 240 W and less than 50 V open circuit voltage at Standard Test Condition (STC) are not covered by this Standard. Specifies requirements for the installation of inverter energy systems with ratings up to 10 kva for singlephase systems, or 30 kva for threephase systems, onto the low-voltage electricity distribution network (grid). Specifies requirements for inverters with ratings of up to 10 kva for single-phase systems, or 30 kva for three-phase systems, and intended for connection to the low-voltage electricity distribution network (grid). Grid Protection Req ts AS4077.3:2005 Grid connection of energy systems via inverters - Grid protection requirements Specifies grid protection requirements for inverter energy systems with ratings up to 10 kva for single-phase or 30 kva for three-phase, systems and intended for connection to the low-voltage electricity distribution network (grid). General Wiring Standards AS/NZS3000:20 07/Amdt 2:2012 Electrical installations Known as the Australian/New Zealand Wiring Rules Solar: Standards for Grid-connected PV Arrays

Outline of Solar Assessment Criteria All applications to connect a solar PV system to an SIEA network require a technical assessment to be undertaken. This is because SIEA has an obligation to operate, maintain (including repair and replace as necessary), and protect its supply network to ensure the adequate, economic, reliable and safe connection and supply of electricity to its customers. These assessments can also help customers avoid over-investing in systems that are too large to operate effectively at their point in the network. Why applications need to be technically assessed Solar PV systems have the potential to compromise the efficiency of the electricity network and cause voltage levels to fall outside the statutory ranges. An inverter that is too large will trip off when the voltage rises above the set limit, and the system will not generate or export to the grid until the voltage comes back into an acceptable range. Assessment thresholds SIEA will undertake technical assessments of any application (regardless of rating) to connect to its Honiara network, or to any of the outstation networks. SIEA reserves the right to assess any application and to change these thresholds at any time. The technical assessment process Our assessment process considers both the size of the inverter, the number of electrical phases of the premises, and the attributes of the local network servicing the premises. The assessment references information including: The Registered Plan (RP) number and Lot number of the premises The capacity of the solar PV system inverter The capacity of the distribution transformer and local network that supply the premises The total capacity of solar PV systems already connected to the same transformer. Assessment exclusions The assessment does not consider: The condition of the household wiring. The number of solar PV panels that are planned for installation. The assessment only considers the size of the inverter. Solar: Technical Assessment Criteria Page 1 of 2

The amount of electricity that is typically used by the occupants of the premises during the day. Solar: Technical Assessment Criteria Page 2 of 2

Installation and commissioning General These check lists are to be filled out for each installation. WARNING: Where short circuit currents are required, follow AS/NZS 5033 Appendix D for the steps that shall be undertaken to measure the short circuit current safely. NOTE: Some projects require that short circuit currents are recorded as part of the contractual commissioning; otherwise a record of the actual operating current of each string is sufficient. This could be done by using the meter on the inverter or by using a clamp meter when the system is operational. Insulation resistance measurement WARNING: PV array dc circuits are live during daylight and, unlike a conventional ac circuit, cannot be isolated before performing this test. Follow AS/NZS 5033 Appendix D4 for the steps that shall be undertaken to measure the insulation resistance safely. Installation and commissioning sample See Appendix 1 Checks and Certification Appendix 2 Signage Appendix 3 Insulation Solar: Installation and Commissioning Checklist Page 1 of 5

Appendix 1 Checks and Certification INSTALLATION DETAILS Address of installation: PV module manufacturer and model number: Number of modules in series in a string: Inverter manufacturer and model number: Number of inverters: PV ARRAY PV array tilt Array frame is certified to AS1170.2 for installation location No galvanically dissimilar metals are in contact with the array frames or supports PV wiring losses are less than 3% at the maximum current output of the array Wiring is protected from mechanical damage and is appropriately supported LV DC and AC INSTALLATION All low voltage wiring has been installed by a licensed electrical tradesperson INVERTER Yes / No Yes / No Yes / No Yes / No Yes / No Number of strings in parallel in PV array: Number of MPPTs: PV array orientation Array frame is installed to manufacturer s instructions Roof penetrations are suitably sealed and weatherproofed Where PV array comprises multiple strings, string protection has been provided Weatherproof PV array isolator mounted adjacent to the array All wiring has been tested and approved by qualified electrical tradesperson Yes / No Yes / No Yes / No Yes / No Yes / No PV array isolator mounted adjacent to the inverter Lockable AC circuit breaker mounted within the switchboard to act as the inverter main switch for the PV/inverter system Inverter ceases supplying power within two seconds of a loss of AC mains Yes / No (Rating:...Vdc,.Adc) Yes / No (Rating.. A ) Yes / No Isolator is mounted on output of the inverter (where required) Inverter is installed as per manufacturer s specification Inverter does not resume supplying power until mains have been present for more than 60 seconds. Yes / No Yes / No Yes / No Solar: Installation and Commissioning Checklist Page 2 of 5

CONTINUITY CHECK Circuit checked (record a description of Yes / No the circuit checked in this column) Continuity of all string, sub-array and array cables Yes / No Continuity of all earth connections (including module frame) Yes / No SYSTEM CHECK WARNING: IF A STRING IS REVERSED AND CONNECTED TO OTHERS, FIRE MAY RESULT. IF POLARITY IS REVERSED AT THE INVERTER DAMAGE MAY OCCUR TO THE INVERTER. Polarity Voltage Short Circuit Current Operating Current String 1 V A A String 2 V A A String 3 V A A String 4 V A A Sub-arrays where required V A A PV array at PV array switchdisconnector V A A Irradiance at time of recording the current W/m2 W/m2 INSULATION RESISTANCE MEASUREMENTS (see table 12.3.1 for minimum values of insulation resistance) Array positive to earth Array negative to earth INSTALLER INFORMATION CEC Accredited installer s name: CEC Accreditation number: MΩ MΩ I verify that the above system has been installed to all relevant standards Signed: Date: CEC Accredited Designer s name: Licensed electrician s name: (where applicable, e.g. LV work) Electrician s licence number: Signed: Date: Solar: Installation and Commissioning Checklist Page 3 of 5

Appendix 2 Signage SIGNAGE (AS4777) On switchboard to which inverter is directly connected Yes / No is permanently fixed at the main switch Yes / No is permanently fixed at the solar main switch Yes / No SIGNAGE (AS/NZS 5033) If the solar system is connected to a distribution board then the following sign is located on main switchboard and all intermediate distribution boards Where the inverter is not adjacent to the main switchboard, location information is provided Is permanently fixed on array junction boxes (black on yellow) Fire emergency information is permanently fixed on the main switchboard and/or meter box (if not installed together) PV DC isolation is clearly identified Yes / No Yes / No Yes / No Yes / No Yes / No Solar: Installation and Commissioning Checklist Page 4 of 5

SOLAR Shutdown procedure is permanently fixed at inverter and/or on main switchboard Is placed adjacent to the inverter when multiple isolation/ disconnection devices are used that are not ganged together Exterior surface of wiring enclosures labelled SOLAR Any other signage as required by the local electricity distributor Yes / No Yes / No Yes / No Appendix 3 Insulation Minimum insulation resistance System voltage (Vdc x1.25) Test Voltage Minimum insulation resistance MΩ <120 250 0.5 120-500 500 1 >500 1000 1 Solar: Installation and Commissioning Checklist Page 5 of 5